INDUCTOR COMPONENT

Organization Name

murata manufacturing co., ltd.

Inventor(s)

Kazunori Annen of Nagaokakyo-shi (JP)

Kenichi Tani of Nagaokakyo-shi (JP)

INDUCTOR COMPONENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240347253 titled 'INDUCTOR COMPONENT

The abstract of the patent application describes an inductor component with a base body, a coil helically wound along the axis inside the base body, and first and second outer electrodes electrically connected to the coil. The base body has end surfaces, side surfaces, a bottom surface, and a top surface, with the outer electrodes located on the bottom surface. The coil consists of coil wiring layers stacked along the axis and a via wiring layer connecting adjacent coil wiring layers in the axial direction.

• The inductor component includes a base body, coil, and outer electrodes.
• The coil is helically wound along the axis inside the base body.
• First and second outer electrodes are electrically connected to the coil.
• The base body has end surfaces, side surfaces, a bottom surface, and a top surface.
• The coil consists of coil wiring layers and a via wiring layer for connection.

Potential Applications: - Electronics and electrical circuits - Power supplies - Signal processing equipment

Problems Solved: - Efficient energy transfer - Improved circuit performance - Space-saving design

Benefits: - Enhanced electrical conductivity - Compact size - Reliable performance

Commercial Applications: Title: "Advanced Inductor Component for Enhanced Circuit Performance" This technology can be used in various electronic devices, power supplies, and signal processing equipment to improve energy transfer efficiency and overall circuit performance. The compact design and reliable performance make it a valuable component in the electronics industry.

Questions about inductor components: 1. How does the coil wiring layers configuration impact the performance of the inductor component? The coil wiring layers configuration affects the inductance and electrical conductivity of the component, influencing its overall performance.

2. What are the key advantages of using a via wiring layer in the coil of an inductor component? The via wiring layer allows for efficient connection between coil wiring layers, enhancing the electrical properties and performance of the inductor component.

Original Abstract Submitted

an inductor component includes a base body, a coil inside the base body and helically wound along the axis, and first and second outer electrodes in the base body and electrically connected to the coil. the base body includes first and second end surfaces opposite each other, first and second side surfaces opposite each other, a bottom surface connected between the first and second end surfaces and between the first and second side surfaces, and a top surface opposite the bottom surface. the first and second outer electrodes are at least on the bottom surface. the axis is parallel to the bottom surface and intersects with the first and second side surfaces. the coil includes coil wiring layers stacked along the axis, and a via wiring layer configured to connect adjacent ones of the coil wiring layers in an axial direction, which is a direction of the axis.